Abstract: Systems and methods for managing nodes in mesh networks are provided. A critical node may determine a status of a backhaul connection prior to joining a PAN. A critical path may be created and maintained that includes the critical node and any intervening nodes between the critical node and the root. A critical node may switch PANs when a backhaul connection becomes unavailable. The switch may be facilitated by a node on the critical path other than the critical node. A node may switch PANs and coordinate the switch with its child nodes.

Abstract: Systems and methods of cloud-based thermal control of an access point performed by a cloud-based controller include periodically obtaining temperature measurements from the access point comprising one or more radio chips operating therein; responsive to the temperature exceeding a first threshold, causing one or more thermal mitigation techniques to modify operating conditions of the one or more radio chips; and, responsive to the temperature being lower than a second threshold, causing reversion back of the one or more thermal mitigation techniques.

Abstract: An antenna system reusing metallic components in a device includes a first antenna element which is also configured to transfer heat into surrounding air; a ground plane which is part of reused metallic components in the device for heat dissipation; and a first physical connection between the first antenna element and the ground plane which supports thermal conductivity based on an associated size and material of the first physical connection.

Abstract: Systems and methods of local thermal control of an access point include determining temperature associated with the access point including one or more radio chips operating therein; responsive to the temperature exceeding a first threshold, performing one or more thermal mitigation techniques to modify operating conditions of the one or more radio chips; and, responsive to the temperature being lower than a second threshold, reverting back the one or more thermal mitigation techniques.

Abstract: Systems and methods of cloud-based thermal control of an access point performed by a cloud-based controller include periodically obtaining temperature measurements from the access point comprising one or more radio chips operating therein; responsive to the temperature exceeding a first threshold, causing one or more thermal mitigation techniques to modify operating conditions of the one or more radio chips; and, responsive to the temperature being lower than a second threshold, causing reversion back of the one or more thermal mitigation techniques.

Abstract: Systems and methods of local thermal control of an access point include determining temperature associated with the access point including one or more radio chips operating therein; responsive to the temperature exceeding a first threshold, performing one or more thermal mitigation techniques to modify operating conditions of the one or more radio chips; and, responsive to the temperature being lower than a second threshold, reverting back the one or more thermal mitigation techniques.

Abstract: An electronic device includes a first circuit board and a second circuit board each stacked relative to one another; and a mid-spreader disposed between the first circuit board and the second circuit board, wherein the mid-spreader includes a heat conductive material in thermal contact with one or more components on each of the first circuit board and the second circuit board to act as a heat sink, and wherein the mid-spreader is thermally connected to one or more heat sinks, the mid-spreader is one of disposed to or integrally formed with the one or more heat sinks, and the mid-spreader extends beyond a size of at least one of the first circuit board and the second circuit board to conduct and transfer heat therefrom.

Abstract: Systems and methods are disclosed for selecting a parent node in a time-slotted channel hopping (“TSCH”) network. A method can include synchronizing, by a low-energy node, communications with a channel hopping pattern of a primary TSCH network. The method can further include transmitting, by the low-energy node, a selection-phase enhanced beacon request that requests an enhanced beacon from TSCH nodes with availability to accept children and with at least a specified link quality using the synchronized communications. The method can further include receiving, by the low-energy node, a selection-phase enhanced beacon from a TSCH node. The method can further include transmitting, by the low-energy node, an adoption request to the TSCH node. The method can further include receiving, by the low-energy node, an adoption response from the TSCH node indicating the TSCH node is managing the primary TSCH network join on behalf of the low-energy node.

Abstract: An electronic device includes a first circuit board and a second circuit board each stacked relative to one another; and a mid-spreader disposed between the first circuit board and the second circuit board, wherein the mid-spreader includes a heat conductive material in thermal contact with one or more components on each of the first circuit board and the second circuit board to act as a heat sink, and wherein the mid-spreader is thermally connected to one or more heat sinks, the mid-spreader is one of disposed to or integrally formed with the one or more heat sinks, and the mid-spreader extends beyond a size of at least one of the first circuit board and the second circuit board to conduct and transfer heat therefrom.

Abstract: Systems and methods of optimizing a distributed Wi-Fi network considering thermal management of a plurality of access points in the distributed Wi-Fi network include periodically obtaining temperature measurements from the plurality of access points; performing an optimization to configure the distributed Wi-Fi network with the temperature measurements as thermal inputs used in the optimization, wherein the optimization determines configuration parameters including one or more of a topology of the distributed Wi-Fi network, band and channel of each hop in the topology, and which clients associate with which access point on which band, based in part on the temperature measurements and thermal constraints; and providing the configuration parameters to the distributed Wi-Fi network for implementation thereof.

Abstract: An antenna system reusing metallic components in a device includes a first antenna element which is also configured to transfer heat into surrounding air; a ground plane which is part of reused metallic components in the device for heat dissipation; and a first physical connection between the first antenna element and the ground plane which supports thermal conductivity based on an associated size and material of the first physical connection.

Abstract: This application relates to efficient and economical synthetic chemical processes for the preparation of pesticidal thioethers and pesticidal sulfoxides. Further, the present application relates to certain novel compounds necessary for their synthesis. It would be advantageous to produce pesticidal thioethers and pesticidal sulfoxides efficiently and in high yield from commercially available starting materials.

Abstract: This application relates to efficient and economical synthetic chemical processes for the preparation of pesticidal thioethers and pesticidal sulfoxides. Further, the present application relates to certain novel compounds necessary for their synthesis. It would be advantageous to produce pesticidal thioethers and pesticidal sulfoxides efficiently and in high yield from commercially available starting materials.

Abstract: Systems and methods optimize broadcast transmissions from a parent device operating on a time-slotted channel hopping (TSCH) network to one or more low-energy endpoint devices connected and synchronized to the communications of the TSCH parent device. As part of a Receiver Initiated Transmit (RIT) communication process, the TSCH parent device receives a check-in communication from a connected low-energy endpoint device during a wake state of a wake/sleep cycle of the low-energy endpoint device. In response to the check-in message, the TSCH parent device transmits an acknowledgment message identifying a broadcast timeslot during which the TSCH parent device will broadcast stored broadcast messages. During the identified timeslot, the TSCH parent device broadcasts stored broadcast messages to any connected low-energy endpoint devices that are tuned in to the corresponding frequency channel according to the TSCH protocol.

Abstract: Safe, rapid and efficient methods for producing virus-specific or other antigen-specific T-cells from cord blood and other samples containing naive immune cells.

Abstract: Systems and methods are disclosed for selecting a parent node in a time-slotted channel hopping (“TSCH”) network. A method can include synchronizing, by a low-energy node, communications with a channel hopping pattern of a primary TSCH network. The method can further include transmitting, by the low-energy node, a selection-phase enhanced beacon request that requests an enhanced beacon from TSCH nodes with availability to accept children and with at least a specified link quality using the synchronized communications. The method can further include receiving, by the low-energy node, a selection-phase enhanced beacon from a TSCH node. The method can further include transmitting, by the low-energy node, an adoption request to the TSCH node. The method can further include receiving, by the low-energy node, an adoption response from the TSCH node indicating the TSCH node is managing the primary TSCH network join on behalf of the low-energy node.

Abstract: In a method of forming a polyaryl polymer, a fluorosulfonate-containing monomer is coupled with itself or a boron-containing comonomer in the presence of a catalyst and a base. The resulting polymers can be used as precursors to electrically conducting polymers, and as components of resist or underlayer compositions for photolithography, among other applications.

Abstract: In a method of forming a polyaryl polymer, a fluorosulfonate-containing monomer is coupled with itself or a boron-containing comonomer in the presence of a catalyst and a base. The resulting polymers can be used as precursors to electrically conducting polymers, and as components of resist or underlayer compositions for photolithography, among other applications.

Abstract: A bis(aryl)acetal has structure (1) wherein Ar1 and Ar2 are each independently an aryl or heteroaryl group. R1 and R2 are each independently hydrogen, or an alkyl, cycloalkyl, aryl, or heteroaryl group, and R1 and R2 can connect directly with each other. Y is a leaving group or a boron-containing functional group bonded to Ar2 via a boron atom. The bis(aryl)acetal is useful as a monomer that can be polymerized to yield a polymer with an acid-sensitive backbone.

Abstract: In an embodiment, a system includes an electronic device having memory circuitry configured to store an application comprising a plurality of instructions. The system also includes processing circuitry configured to execute the application and an application authenticity check routine, wherein the application authenticity check routine includes instructions executable by the processing circuitry to use idle processing time to verify an authenticity of the application throughout execution of the application.